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81.
82.
The intramolecular base composition heterogeneity of human DNA has been investigated by electron microscopic observations of partially denatured structures and by equilibrium solution thermal denaturation techniques. DNA sequences having an average length of less than 2000 base pairs are found to be heterogeneous in base composition. These heterogeneous sequences occupy a minimum of 67 to 81% of the human genome. 相似文献
83.
The presence of actin in nuclei: a critical appraisal. 总被引:5,自引:0,他引:5
To assess the significance of actin associations with nuclei, we have examined Amoeba proteus nuclei for the presence of labeled actin under a variety of circumstances without (in most instances) isolating nuclei or breaking up cytoplasms prior to the extraction of proteins.We first established that: the 42,000 dalton proteins (presumed to be actin) present in cytoplasm and non-isolated nuclei are identical electrophoretically; the putative actin of amebas has the same size and almost the same isoelectric point as rat muscle actin; and the peptide “fingerprints” of putative ameba actin and rat actin are very similar after tryptic digestion. We therefore concluded that the 42,000 dalton protein of ameba is actin.We determined that: the concentrations of actin in the cytoplasm and nucleus of amebas are the same; actin is readily lost from nuclei that are released from lysed cells; shortly after a 35S-labeled nucleus is transplanted into unlabeled cytoplasm, or an unlabeled nucleus is transplanted into 35S-labeled cytoplasm, the concentration of 35S-actin in nucleus and cytoplasm is the same; and when cells containing 35S-actin are subjected to long chase periods on unlabeled food, the concentrations of 35S-actin in nucleus and cytoplasm fall in parallel. These observations taken together suggest that actin is not tightly associated with nuclei. Rather, actin may associate with nuclei for the trivial reason that the nuclear envelope is no barrier to free movement of that protein between the two compartments.We conclude that the mere presence of actin in nuclei is insufficient grounds for assuming that it has any role in nuclear functions, such as, for example, chromosome condensation. 相似文献
84.
Kinetics and Extent of Mineralization of Organic Chemicals at Trace Levels in Freshwater and Sewage 总被引:31,自引:31,他引:0 下载免费PDF全文
A sensitive and rapid method was developed to measure the mineralization of 14C-labeled organic compounds at picogram-per-milliliter or lower levels in samples of natural waters and sewage. Mineralization was considered to be equivalent to the loss of radioactivity from solutions. From 93 to 98% of benzoate, benzylamine, aniline, phenol, and 2,4-dichlorophenoxyacetate at one or more concentrations below 300 ng/ml was mineralized in samples of lake waters and sewage, indicating little or no incorporation of carbon into microbial cells. Assimilation of 14C by the cells mineralizing benzylamine in lake water was not detected. Mineralization in lake waters was linear with time for aniline at 5.7 pg to 500 ng/ml, benzylamine at 310 ng/ml, phenol at 102 fg to 10 mg/ml, 2,4-dichlorophenoxyacetate at 1.5 pg/ml, and di-(2-ethylhexyl) phthalate at 21 pg to 200 ng/ml, but it was exponential at several p-nitrophenol concentrations. The rate of mineralization of 50 and 500 ng of aniline per ml and 200 pg and 2.0 ng of the phthalate per ml increased with time in lake waters. The phthalate and 2,4-dichlorophenoxyacetate were mineralized in samples from a eutrophic but not an oligotrophic lake. Addition to eutrophic lake water of a benzoate-utilizing bacterium did not increase the rate of benzoate mineralization at 34 and 350 pg/ml but did so at 5 and 50 ng/ml. Glucose and phenol reduced the percentage of p-nitrophenol mineralized at p-nitrophenol concentrations of 200 ng/ml but not at 22.6 pg/ml and inhibited the rates of mineralization at both concentrations. These results show that the kinetics of mineralization, the capacity of the aquatic community to assimilate carbon from the substrate or the extent of assimilation, and the sensitivity of the mineralizing populations to organic compounds are different at trace levels than at higher concentrations of organic compounds. 相似文献
85.
Lack of tropomyosin correlates with the absence of stress fibers in transformed rat kidney cells 总被引:16,自引:0,他引:16
We have utilized epithelial rat kidney cells and their Kirsten viral transformant (442) to examine the role of actin-binding proteins in cellular morphogenesis. Normal rat kidney cells are well spread while the transformed cells are more spherical, poorly adherent, and lack actin stress fibers (Rubin, R.W., Warren, R.H., Lukeman, D.S. and Clements, E. (1978) J. Cell Biol. 78, 28-35). By immunofluorescence, antitropomyosin prominently stains normal rat kidney cell stress fibers while only a weak, nonspecific fluorescence is observed in 442 cells. Using two-dimensional gel electrophoresis, tropomyosin can be detected in normal rat kidney cells homogenates. The tropomyosin subunits are enriched in Triton-extracted filamentous normal rat kidney cell models, and in extracts of normal rat kidney cell homogenate produced by using a rapid myosin affinity technique to isolate actin and actin-associated proteins. The identity of the tropomyosin subunits has been confirmed by electrophoretic mobility, lack of proline, and the peptide map generated by limited proteolysis. None of these techniques have detected tropomyosin in the corresponding 442 preparations. Our results suggest that the transformation of normal rat kidney cells has led to an overall reduction in tropomyosin content. This may be related to the inability of 442 cells to organize filamentous actin stress fibers. 相似文献
86.
Prostaglandin E1 (PGE1) and prostaglandin E2 (PGE2), derived by enzymatic oxidation of cellular dihomogammalinolenic acid (DHLA) and arachidonic acid (AA), respectively, have diverse and, at times, distinct biological actions. It has been suggested that PGE1 specifically inhibits a variety of inflammatory processes, and, in light of the potential therapeutic benefit of PGE1 and its fatty acid precursor in inflammatory disorders, there is growing interest in the biochemical mechanisms which determine the balance between PGE1 and PGE2 synthesis. Metabolic studies in this area have been hampered by the difficulties in measuring the extremely small masses of these prostaglandins which are generated in cell culture systems. We studied the regulation of PGE1 versus PGE2 synthesis using an essential fatty acid-deficient, PGE-producing, mouse fibrosarcoma cell line, EFD-1. Because EFD-1 cells contain no endogenous AA or DHLA, we were able to replete the cells with AA and DHLA of known specific activities; thus, the mass of both cellular AA and DHLA, and synthesized PGE1 and PGE2, could be accurately determined. The major finding of this study is that production of PGE2 was highly favored over production of PGE1 due to preferential incorporation of AA versus DHLA into, and release from, the total cellular phospholipid pool. Further, we correlated the selective release of AA versus DHLA from total cellular phospholipids with the selective incorporation of AA versus DHLA into specific phospholipid pools. In addition, we showed that conversion of DHLA to AA by delta 5 desaturase was enhanced by increasing the cellular mass of n-6 fatty acids and by increasing the cell proliferative activity. Together, these results indicate that the relative abundance of PGE2 versus PGE1 in vivo is not merely a function of the relative abundance of AA versus DHLA in tissues, but also relates to markedly different cellular metabolism of these two fatty acids. 相似文献
87.
The crystal structure of recombinant rabbit interferon-gamma was solved by the multiple isomorphous replacement technique at 2.7-A resolution and refined to a crystallographic R-factor of 26.2%. The interferon crystallizes with one-half of the functional dimer in the asymmetric unit, with the two polypeptide chains of the dimer related by a crystallographic 2-fold symmetry axis. The structure is predominantly alpha-helical with extensive interdigitation of the alpha-helical segments of the two polypeptide chains. 相似文献
88.
89.
D C Rubin E Swietlicki K A Roth J I Gordon 《The Journal of biological chemistry》1992,267(21):15122-15133
The four principal cellular constituents of the mouse intestinal epithelium are all derived from a multipotent stem cell functionally anchored near the base of its crypts. Differentiation of enterocytes, enteroendocrine, and goblet cells occurs during an orderly upward migration from monoclonal crypts supplied by a single active stem cell to adjacent polyclonal small intestinal villi or to their colonic homologs, the surface epithelial cuffs. Paneth cells differentiate as they descend to the base of crypts. This epithelium undergoes rapid and perpetual renewal yet is able to maintain cephalocaudal (duodenal-to-colonic) differences in the differentiation programs of its four cell types from the time of its initial cytodifferentiation in late fetal life (embryonic (E) days 16-17). Rat liver fatty acid-binding protein/human growth hormone transgenes (Fabpl/hGH) have been used as novel phenotypic markers to describe the biological properties of gut stem cells and the differentiation programs of their enterocytic and enteroendocrine lineages. To determine whether the multipotent stem cell is able to retain a "positional" address in the absence of luminal signals, we prepared isografts from the proximal small intestine or distal small intestine and colon of E15-E16 Fabpl/hGH transgenic mice and their normal littermates and implanted them into the subcutaneous tissues of young, adult male CBY/B6 nude mice. Immunocytochemical and histochemical studies indicate that appropriate position-specific differences in the differentiation programs of each of the four principal cell lineages are present along the cephalocaudal and crypt-to-villus (or crypt-to-epithelial cuff) axes of isografts harvested 4-6 weeks after implantation. This suggests that the gut stem cell can be characterized not only by its multipotency and enormous capacity for self-renewal but also by its ability to be programmed (? imprinted) with positional information. Transgene expression is reduced in a number of enteroendocrine subpopulations in small intestinal and colonic isografts compared to the intact gut. Moreover, the decision to express the Fabpl/hGH transgene appears to be coordinated between adjacent crypts as evidenced by (i) the presence of multicrypt patches of wholly reporter (hGH)-positive or reporter-negative cells in the intact colon and in colonic isografts and (ii) by the presence of coherent bands of reporter-positive or -negative cells that emanate from adjacent monophenotypic crypts and extend to the apical extrusion zone of distal small intestinal villi.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
90.
The biologic effect of eicosanoids depends in large measure upon the relative masses in tissues of eicosanoids derived from the n-6 fatty acids, dihomogammalinolenic acid and arachidonic acid, and the n-3 fatty acid, eicosapentaenoic acid. Generation of this tissue balance is related to the relative cellular masses of these precursor fatty acids, the competition between them for entry into and release from cellular phospholipids, and their competition for the enzymes that catalyze their conversion to eicosanoids. In order to better understand these processes, we studied the cellular interactions of n-6 and n-3 fatty acids using an essential fatty acid-deficient, PGE-producing, mouse fibrosarcoma cell line, EFD-1. Unlike studies using cells with endogenous pools of n-6 and n-3 fatty acids, the use of EFD-1 cells enabled us to examine the metabolic fate of each family of fatty acids both in the presence and in the absence of the second family of fatty acids. Thus, the specific effects of one fatty acid family on the other could be directly assessed. In addition, we were able to replete the cells with dihomogammalinolenic acid (DHLA), arachidonic acid (AA), and eicosapentaenoic acid (EPA) of known specific activities; thus the masses of cellular DHLA, AA, and EPA, and their metabolites, PGE1, PGE2, and PGE3, respectively, could be accurately quantitated. The major findings of this study were: 1) n-6 fatty acids markedly stimulated the elongation of EPA to 22:5 whereas n-3 fatty acids inhibited the delta 5 desaturation of DHLA to AA and the elongation of AA to 22:4; 2) n-6 fatty acids caused a specific redistribution of cellular EPA from phospholipid to triacylglycerol; 3) n-3 fatty acids reduced the mass of DHLA and AA only in phosphatidylinositol whereas n-6 fatty acids reduced the mass of EPA to a similar extent in all cellular phospholipids; and 4) n-3 fatty acids caused an identical (33%) reduction in the bradykinin-induced release of PGE1 and PGE2, whereas n-6 fatty acids stimulated PGE3 release 2.3-fold. Together, these highly quantitative metabolic data increase our understanding of the regulation of both the cellular levels of DHLA, AA, and EPA, and their availability for eicosanoid synthesis. In addition, these findings provide a context for the effective use of these fatty acids in dietary therapies directed at modulation of eicosanoid production. 相似文献